Journal ArticleDOI
Water-use efficiency and transpiration efficiency of wheat under rain-fed conditions and supplemental irrigation in a Mediterranean-type environment
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TLDR
In this article, the influence of irrigation and nitrogen on water use, transpiration and transpiration efficiency was examined in wheat grown in northern Syria in a typical Mediterranean climate over five seasons 1991/92-1995/96.Abstract:
Growth and water use were measured in wheat (Triticum aestivum L.) grown in northern Syria in a typical Mediterranean climate over five seasons 1991/92–1995/96. Water use was partitioned into transpiration (T) and soil evaporation (Es) using Ritchie's model, and water-use efficiency (WUE) and transpiration efficiency (TE) were calculated. The aim of the study was to examine the influence of irrigation and nitrogen on water use, WUE and TE. By addition of 100 kg N ha-1, Es was reduced from 120 mm to 101 mm under rain-fed conditions and from 143 mm to 110 mm under irrigated conditions, and T was increased from 153 mm to 193 mm under rain-fed conditions and from 215 mm to 310 mm under irrigated conditions. Under rain-fed conditions, about 35% of evapotranspiration (ET) may be lost from the soil surface for the fertilized crops and 44% of ET for the unfertilized crops. Transpiration accounted for 65% of ET for the fertilized crops and 56% for the unfertilized crops under rain-fed. As a result of this, WUE was increased by 44% for dry matter and 29% for grain yield under rain-fed conditions, and by 60% for dry matter and 57% for grain yield under irrigated conditions. Transpiration efficiency for the fertilized crops was 43.8 kg ha-1 mm-1 for dry matter and 15 kg ha-1 mm-1 for grain yield, while TE for the unfertilized crops was 33.6 kg ha-1 mm-1 and 12.2 kg ha-1 mm-1 for dry matter and grain yield, respectively. Supplemental irrigation significantly increased post-anthesis water use, transpiration, dry matter and grain yield. Water-use efficiency for grain yield was increased from 9.7 to 11.0 kg ha-1 mm-1 by supplemental irrigation, although WUE for dry matter was not affected by it. Irrigation did not affect transpiration efficiency for grain yield, but decreased transpiration efficiency for dry matter by 16%. This was associated with higher harvest index as a result of good water supply in the post-anthesis period and increased transpiration under irrigated conditions.read more
Citations
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Journal ArticleDOI
Plant breeding and drought in C3 cereals: what should we breed for?
TL;DR: Physiological traits that contribute to improved productivity under mild-moderate drought, including broad avoidance/tolerance to mild- moderate stresses is given by constitutive traits also expressed under stress-free conditions are focused on.
Journal ArticleDOI
Irrigation management under water scarcity
TL;DR: The use of water for agricultural production in water scarcity regions requires innovative and sustainable research, and an appropriate transfer of technologies as mentioned in this paper, which is why it is important to adopt emerging technologies for water management as well as to develop appropriate methodologies for the analysis of social, economic, and environmental benefits of improved irrigation management.
Improving Agricultural Water Use Efficiency in Arid and Semi-arid Areas of China
TL;DR: Wang et al. as mentioned in this paper reviewed water-saving agricultural systems and approaches to improve agricultural water use efficiency in the and and semiarid areas of China, including low pressure irrigation, furrow irrigation, plastic mulches, drip irrigation under plastic, rainfall harvesting and terracing.
Journal ArticleDOI
Improving agricultural water use efficiency in arid and semiarid areas of China
TL;DR: Wang et al. as discussed by the authors reviewed water-saving agricultural systems and approaches to improve agricultural water use efficiency in the and and semiarid areas of China, including low pressure irrigation, furrow irrigation, plastic mulches, drip irrigation under plastic, rainfall harvesting and terracing.
Journal ArticleDOI
Increasing Crop Productivity When Water is Scarce - From Breeding to Field Management
TL;DR: In the field, the upper limit of water productivity of well-managed disease-free water-limited cereal crops is typically 20 kg ha -1 mm -1 (grain yield per water used) as discussed by the authors.
References
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Journal ArticleDOI
A decimal code for the growth stages of cereals
TL;DR: The decimal code scale for indicating the growth stages of cereals as developed by the authors and published by Eucarpia is explained and described.
Journal ArticleDOI
Model for predicting evaporation from a row crop with incomplete cover
TL;DR: In this article, a model for calculating the daily evaporation rate from a crop surface was presented for a row crop canopy situation in which the soil water supply to the plant roots was not limited and the crop has not come into an advanced stage of maturation or senescence.
Journal ArticleDOI
Isotopic Composition of Plant Carbon Correlates With Water-Use Efficiency of Wheat Genotypes
TL;DR: It is suggested that carbon-isotope analysis may be a useful tool in selection for improved water-use efficiency in breeding programmes for C3 species.
Book ChapterDOI
Stomatal Control of Transpiration: Scaling Up from Leaf to Region
P.G. Jarvis,K.G. McNaughton +1 more
TL;DR: A wide variety of formulae have been developed for estimating evaporation from vegetation that are based entirely on weather variables and take no account at all of the species composition or stomatal properties of the transpiring vegetation.
Journal ArticleDOI
Nitrogen and Photosynthesis in the Flag Leaf of Wheat (Triticum aestivum L.)
TL;DR: Wheat (Triticum aestivum L. cv Yecora 70) plants were grown with various concentrations of nitrate nitrogen available to the roots and rates of gas exchange, ribulose-1,5-bisphosphate (RuP(2)) carboxylase activity, and the amounts of chlorophyll, soluble protein, nitrogen, and phosphorus were determined for each flag leaf.
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